show that y1= e^x and y2=1+x form a basis for the general solution of xy''-(1+x)y'+y=0 by...

Consider the differential equation x2y''+xy'-y=0, x>0. a. Verify that y(x)=x is a solution. b. Find a...

Consider the differential equation x2y''+xy'-y=0, x>0. a. Verify that y(x)=x is a solution. b. Find a second linearly independent solution using the method of reduction of order. [Please use y2(x) = v(x)y1(x)]

Show that the given functions y1 and y2 are solutions to the DE. Then show that...

Show that the given functions y1 and y2 are solutions to the DE. Then show that y1 and y2 are linearly independent. write the general solution. Impose the given ICs to find the particular solution to the IVP. y'' + 25y = 0; y1 = cos 5x; y2 = sin 5x; y(0) = -2; y'(0) = 3.

given that y1=xcos(lnx)and y2=xsin(lnx)form a fundamental set of solutions to x^2y''-xy'+2y=0,find general solution to x^2y''-xy'+2y=xlnx

given that y1=xcos(lnx)and y2=xsin(lnx)form a fundamental set of solutions to x^2y''-xy'+2y=0,find general solution to x^2y''-xy'+2y=xlnx

Given that y=e^x is a solution of the equation (x-1)y''-xy'+y=0, find the general solution to (x-1)y''-xy'+y=1.

Given that y=e^x is a solution of the equation (x-1)y''-xy'+y=0, find the general solution to (x-1)y''-xy'+y=1.

Find two linearly independent solutions of 2x2y′′−xy′+(−2x+1)y=0,x>0 of the form y1=xr1(1+a1x+a2x2+a3x3+⋯) y2=xr2(1+b1x+b2x2+b3x3+⋯) where r1>r2. Enter r1=...

Find two linearly independent solutions of 2x2y′′−xy′+(−2x+1)y=0,x>0 of the form y1=xr1(1+a1x+a2x2+a3x3+⋯) y2=xr2(1+b1x+b2x2+b3x3+⋯) where r1>r2. Enter r1= a1= a2= a3= r2= b1= b2= b3= Note: You can earn partial credit on this problem.

Find perticular solution y''-y'=e^x y1 = e^x found y2 = -1

Find perticular solution y''-y'=e^x y1 = e^x found y2 = -1

Two solutions to the differential equation y00 + 2y0 + y = 0 are y1(t) =...

Two solutions to the differential equation y00 + 2y0 + y = 0 are y1(t) = e−t and y2(t) = te−t. Verify that y1(t) is a solution and show that y1,y2 form a fundamental set of solutions by computing the Wronskian

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find...

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find the function y2(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y2(0)=0, y′2(0)=1. y2(t)= ? Find the Wronskian of these two solutions you have found: W(t)=W(y1,y2). W(t)=?

Solve the initial-value problem. y"-6y'+9y=0; y(0)=2, y'(0)=3 Given that y1=x2 is a solution to y"+(1/x) y'-(4/x2)...

Solve the initial-value problem. y"-6y'+9y=0; y(0)=2, y'(0)=3 Given that y1=x2 is a solution to y"+(1/x) y'-(4/x2) y=0, find a second, linearly independent solution y2. Find the Laplace transform. L{t2 * tet} Thanks for solving!

let y1=e^x be a solution of the DE 2y''-5y'+3y=0 use the reduction of order method to...

let y1=e^x be a solution of the DE 2y''-5y'+3y=0 use the reduction of order method to find a second linearly independent solution y2 of the given DE